A5059779821- Advanced Photocatalysis Techniques
- Catalysis and Oxidation Reactions
- Catalytic Processes in Materials Science
- Electrocatalysts for Energy Conversion
- Zeolite Catalysis and Synthesis
- Perovskite Materials and Applications
- Covalent Organic Framework Applications
- Copper-based nanomaterials and applications
- Fuel Cells and Related Materials
Fuzhou University
2023-2025
Abstract The selective conversion of ethane (C 2 H 6 ) to ethylene 4 under mild conditions is highly wanted, yet very challenging. Herein, it demonstrated that a Pt/WO 3−x catalyst, constructed by supporting ultrafine Pt nanoparticles on the surface oxygen‐deficient tungsten oxide (WO nanoplates, efficient and reusable for photocatalytic C dehydrogenation produce with high selectivity. Specifically, pure light irradiation, optimized photocatalyst exhibits yield rates 291.8 373.4 µmol g −1 h...
Light-driven valorization conversion of CO2 is an encouraging carbon-negative pathway that shifts energy-reliance from fossil fuels to renewables. Herein, a hierarchical urchin-like hollow-TiO2@CdS/ZnS (HTO@CdS/ZnS) Z-scheme hybrid synthesized by in situ self-assembly strategy presents superior photocatalytic CO2-to-CO activity with nearly 100% selectivity. Specifically, benefitting the reasonable architectural and interface design, as well surface modification, this benchmarked...
Carbon-based single-atom catalysts, a promising candidate in electrocatalysis, offer insights into electron-donating effects of metal center on adjacent atoms. Herein, we present practical strategy to rationally design model catalyst with single zinc (Zn) atom coordinated nitrogen and sulfur atoms multilevel carbon matrix. The Zn site exhibits an atomic interface configuration ZnN 4 S 1 , where Zn's electron injection effect enables thermal-neutral hydrogen adsorption neighboring atoms,...
A Pt/ZnO photocatalyst is efficient and reusable for ethene production from ethane dehydrogenation with simulated sunlight, affording outstanding C 2 H 4 productivity of 867.8 μmol h −1 g selectivity 97.56%.
An Au/Zn 2 Ti 3 O 8 Schottky junction photocatalyst exhibits high performance for the selective methane oxidation, in which Au sites stabilize ˙CH intermediate to facilitate coupling reaction ethane selectivity.
Photocatalytic O2 reduction to H2O2 is a green and promising technology with advantages in cost-effectiveness, sustainability, environmental friendliness, but its efficiency constrained by limited selectivity for the two-electron oxygen reaction (ORR) pathway. Here, we anchored isolated Cu atoms tunable oxidation states onto WO3 as effective active centers enhance photocatalytic production. Due charge compensation between single support, state of species exhibited loading-dependent...